Printhead assembly for maintaining a printhead in an operable condition

ABSTRACT

A printhead assembly for maintaining a printhead in an operable condition is provided. The assembly comprises a printhead having an ink ejection face and a printhead maintenance station. The printhead maintenance station comprises an elastically deformable pad having a contact surface for sealing engagement with the face, and an engagement mechanism for moving the pad between a first position in which the contact surface is sealingly engaged with the face and a second position in which the contact surface is disengaged from the face. The printhead assembly is configured such that the contact surface is progressively contacted with the face during sealing engagement and peeled away from the face during disengagement.

FIELD OF THE INVENTION

This invention relates to a maintenance station for an inkjet printhead.It has been developed primarily for facilitating maintenance operations,such as sealing, cleaning or unblocking nozzles in an inkjet printhead.

CO-PENDING APPLICATIONS

The following applications have been filed by the Applicantsimultaneously with the present application:

11/246676 11/246678 11/246679 11/246680 11/246681 11/246714 11/24671311/246689 11/246671 11/246670 11/246669 11/246704 11/246710 11/24668811/246716 11/246715 11/246707 11/246706 11/246705 11/246708 11/24669311/246692 11/246696 11/246695 11/246694 11/246687 11/246718 11/24668511/246686 11/246703 11/246691 11/246711 11/246690 11/246712 11/24671711/246709 11/246700 11/246701 11/246702 11/246668 11/246697 11/24669811/246699 11/246675 11/246674 11/246667 11/246684 11/246672 11/24667311/246683 11/246682

The disclosures of these co-pending applications are incorporated hereinby reference.

CROSS REFERENCES TO RELATED APPLICATIONS

Various methods, systems and apparatus relating to the present inventionare disclosed in the following U.S. Patents/Patent Applications filed bythe applicant or assignee of the present invention:

6750901 6476863 6788336 7249108 6566858 6331946 6246970 644252509/517384 09/505951 6374354 7246098 6816968 6757832 6334190 67453317249109 10/203559 7197642 7093139 10/636263 10/636283 10/866608 721003810/902883 10/940653 10/942858 11/003786 7258417 11/003418 11/0033347270395 11/003404 11/003419 11/003700 7255419 7284819 7229148 72584167273263 7270393 6984017 11/003699 11/071473 11/003463 11/00370111/003683 11/003614 7284820 11/003684 7246875 11/003617 6623101 64061296505916 6457809 6550895 6457812 7152962 6428133 7204941 728216410/815628 7278727 10/913373 10/913374 10/913372 7138391 715395610/913380 10/913379 10/913376 7122076 7148345 11/172816 11/17281511/172814 10/407212 7252366 10/683064 10/683041 6746105 7156508 71599727083271 7165834 7080894 7201469 7090336 7156489 10/760233 10/7602467083257 7258422 7255423 7219980 10/760253 10/760255 10/760209 711819210/760194 10/760238 7077505 7198354 7077504 10/760189 7198355 10/76023210/760231 7152959 7213906 7178901 7222938 7108353 7104629 72468867128400 7108355 6991322 7287836 7118197 10/728784 10/728783 70774936962402 10/728803 7147308 10/728779 7118198 7168790 7172270 72291556830318 7195342 7175261 10/773183 7108356 7118202 10/773186 713474410/773185 7134743 7182439 7210768 10/773187 7134745 7156484 71182017111926 10/773184 7018021 11/060751 11/060805 11/188017 11/09730811/097309 7246876 11/097299 11/097310 11/097213 11/210687 11/0972127147306 09/575197 7079712 6825945 09/575165 6813039 6987506 70387976980318 6816274 7102772 09/575186 6681045 6728000 7173722 708845909/575181 7068382 7062651 6789194 6789191 6644642 6502614 66229996669385 6549935 6987573 6727996 6591884 6439706 6760119 09/5751986290349 6428155 6785016 6870966 6822639 6737591 7055739 7233320 68301966832717 6957768 09/575172 7170499 7106888 7123239 10/727181 10/72716210/727163 10/727245 7121639 7165824 7152942 10/727157 7181572 709613710/727257 7278034 7188282 10/727159 10/727180 10/727179 10/72719210/727274 10/727164 10/727161 10/727198 10/727158 10/754536 10/75493810/727227 10/727160 10/934720 7171323 10/296522 6795215 7070098 71546386805419 6859289 6977751 6398332 6394573 6622923 6747760 692114410/884881 7092112 7192106 11/039866 7173739 6986560 7008033 11/1482377195328 7182422 10/854521 10/854522 10/854488 7281330 10/85450310/854504 10/854509 7188928 7093989 10/854497 10/854495 10/85449810/854511 10/854512 10/854525 10/854526 10/854516 7252353 10/8545157267417 10/854505 10/854493 7275805 10/854489 10/854490 7281777 729085210/854528 10/854523 10/854527 10/854524 10/854520 10/854514 10/85451910/854513 10/854499 10/854501 7266661 7243193 10/854518 10/85451710/934628 7163345 10/760254 10/760210 10/760202 7201468 10/76019810/760249 7234802 10/760196 7287846 7156511 10/760264 7258432 709729110/760222 10/760248 7083273 10/760192 10/760203 10/760204 10/76020510/760206 10/760267 10/760270 7198352 10/760271 10/760275 72014707121655 10/760184 7232208 10/760186 10/760261 7083272 11/01476411/014763 11/014748 11/014747 11/014761 11/014760 11/014757 11/0147147249822 11/014762 11/014724 11/014723 11/014756 11/014736 11/01475911/014758 11/014725 11/014739 11/014738 11/014737 11/014726 11/01474511/014712 7270405 11/014751 11/014735 11/014734 11/014719 11/01475011/014749 7249833 11/014769 11/014729 11/014743 11/014733 11/01475411/014755 11/014765 11/014766 11/014740 7284816 7284845 725543011/014744 11/014741 11/014768 11/014767 11/014718 11/014717 11/01471611/014732 11/014742 11/097268 11/097185 11/097184

The disclosures of these applications and patents are incorporatedherein by reference.

BACKGROUND OF THE INVENTION

Inkjet printers are commonplace in homes and offices. More recently,inkjet printers have been proposed for use in portable devices, such asdigital cameras, mobile phones etc. Furthermore, with the advent of MEMStechnology, whereby inexpensive photolithographic techniques from thesemiconductor industry are used to manufacture microelectomechanicalsystems, the possibility of disposable inkjet printers is becoming acommercial reality. The present Applicant has developed many differenttypes of MEMS inkjet printheads, some of which are described in thepatents and patent applications listed in the above cross referencelist.

The contents of these patents and patent applications are incorporatedherein by cross-reference in their entirety.

Although the cost and power requirements of inkjet printheads is beingreduced through the use of MEMS technology and improved inkjet nozzledesigns, it is also necessary to reduce the cost and power requirementsof other printer components, in order to incorporate inkjet printersinto portable devices or to provide disposable inkjet printers.

A crucial aspect of inkjet printing is maintaining the printhead in anoperational printing condition throughout its lifetime. A number offactors may cause an inkjet printhead to become non-operational and itis important for any inkjet printer to include a strategy for preventingprinthead failure and/or restoring the printhead to an operationalprinting condition in the event of failure. Printhead failure may becaused by, for example, printhead face flooding, dried-up nozzles (dueto evaporation of water from the nozzles—a phenomenon known in the artas decap), or particulates fouling nozzles.

In some cases, printhead failure may be remedied by simply firingnozzles periodically using a ‘keep wet cycle’. This strategy does notrequire any external mechanical maintenance of the printhead and may beappropriate when a nozzle has not been fired for a relatively shortperiod of time (e.g. less than 60 seconds). A ‘keep wet cycle’ can beused to address decap, and the consequent formation of viscous plugs innozzles, during active printing.

However, a ‘keep wet cycle’ cannot be used when the printer is left idleover long periods of time, for example, when it is in between printjobs, switched off or in transit. Furthermore, a ‘keep wet cycle’ is notappropriate for clearing severely blocked nozzles and does not addressthe problem of printhead face flooding. Accordingly, inkjet printerstypically include a printhead maintenance station, which is designed toprevent printhead failure and/or remediate printheads to an operationalcondition.

One measure that has been used for preventing printhead failure issealing the printhead, thereby preventing evaporation of water and thedrying up of nozzles. Commercial inkjet printers are typically suppliedwith a sealing tape across the printhead, which the user removes whenthe printer is installed for use. The sealing tape protects the primedprinthead from particulates and prevents the nozzles from drying upduring transit. Sealing tape also controls flooding of ink over theprinthead face.

Aside from one-time use sealing tape on new printers, sealing has alsobeen used as a strategy for maintaining printheads in an operationalcondition during printing. In some commercial printers, a gasket-typesealing ring and cap engages around a perimeter of the printhead whenthe printer is idle. With the printhead capped in this way, evaporationof water from the nozzles is minimized, and a relatively humidatmosphere can be maintained above the nozzles, thereby minimizing theextent to which nozzles dry up.

Furthermore, gasket-type sealing rings have been combined with suctioncleaning in prior art maintenance stations. A vacuum may be connected tothe sealing cap and used to suck ink from the nozzles. The sealing capminimizes nozzle drying and entrance of particulates from theatmosphere, while the suction ensures any blocked nozzles are clearedprior to printing. Hence, this type of maintenance station employs bothpreventative and remedial measures.

Another remedial strategy used in prior art printhead maintenancestations is a rubber squeegee. The squeegee does not act as seal;rather, it is wiped across the printhead and removes any flooded ink.Squeegee cleaning may be used immediately prior to printing, after thevacuum flush described above.

The printhead maintenance strategies described above have severalshortcomings, especially in the present age of inkjet printing. Moderninkjet printers are required to have smaller drop volumes, and hencesmaller nozzle openings, for high resolution photographic printing. Itis also desirable to use stationary pagewidth printheads for high-speedprinting, as opposed to scanning printheads. It is also desirable toreduce the overall cost of inkjet printers and incorporate them intolow-powered portable devices, such as digital cameras and mobile phones.

Current printhead maintenance strategies are unable to provide inkjetprinters, which meet these demands. With smaller nozzle openings (of theorder of 5-20 microns), nozzle blocking due to decap becomes a seriousproblem. At present, the only reliable way of dealing with blockednozzles is to use a suction pad. However, suction devices are bulky,expensive and consume large amounts of power, making them unsuitable formany inkjet applications. Furthermore, suction pads are wasteful of inkand can consume up to 0.25 ml of ink with each remediation.

Additionally, none of the prior art maintenance stations are able toprovide a printhead ready for printing after a single maintenanceoperation. Typically, it is necessary to employ separate preventative(e.g. sealing) and remedial (e.g. suction and squeegee-cleaning)measures in order to provide a fully operational printhead. However,operations such as squeegee-cleaning are not suitable for all types ofprinthead, because it exerts shear stress across the printhead and candamage sensitive nozzle structures.

Therefore, it would be desirable to provide an inkjet printheadmaintenance station, which combines both preventative and remedialmeasures. It would further be desirable to provide an inkjet printheadmaintenance station, which can be fabricated at low cost and istherefore suitable for fabrication of a disposable printer. It would befurther desirable to provide an inkjet printhead maintenance station,which does not significantly impact on the overall size of the printerand is therefore suitable for incorporation into handheld electronicdevices. It would be further desirable to provide an inkjet printheadmaintenance station, which does not impact on the overall powerconsumption of the printer and is therefore suitable for incorporationinto battery-powered electronic devices. It would be further desirableto provide an inkjet printhead maintenance station, which does not wastelarge quantities of ink with each remedial operation. It would furtherbe desirable to provide an inkjet printhead maintenance station, whichcleans ink from a flooded printhead without exerting high shear stressesacross the printhead.

SUMMARY OF THE INVENTION

In a first aspect, there is provided a printhead maintenance station formaintaining a printhead in an operable condition, said maintenancestation comprising:

-   -   an elastically deformable pad having a contact surface for        sealing engagement with an ink ejection face of said printhead;        and    -   an engagement mechanism for moving said pad between a first        position in which the contact surface is sealingly engaged with        said face, and a second position in which said contact surface        is disengaged from said face,    -   wherein said maintenance station is configured such that said        contact surface is progressively contacted with said face during        sealing engagement and peeled away from said face during        disengagement.

In a second aspect, there is provided a printhead assembly formaintaining a printhead in an operable condition, said assemblycomprising:

-   -   a printhead having an ink ejection face; and    -   a printhead maintenance station comprising:        -   an elastically deformable pad having a contact surface for            sealing engagement with said face; and        -   an engagement mechanism for moving said pad between a first            position in which said contact surface is sealingly engaged            with said face and a second position in which said contact            surface is disengaged from said face,            wherein said printhead assembly is configured such that said            contact surface is progressively contacted with said face            during sealing engagement and peeled away from said face            during disengagement.

In a third aspect, there is provided a method of maintaining a printheadin an operable condition, said method comprising the steps of:

-   -   providing an elastically deformable pad having a contact surface        for sealing engagement with an ink ejection face of said        printhead; and    -   moving said pad between a first position in which said contact        surface is sealingly engaged with said face and a second        position in which said contact surface is disengaged from said        face,    -   wherein said movement causes said contact surface to be        progressively contacted with said face during sealing engagement        and peeled away from said face during disengagement.

In a fourth aspect, there is provided a method of unblocking nozzles ina printhead, said method comprising the steps of:

-   -   providing an elastically deformable pad having a contact surface        for sealing engagement with an ink ejection face of said        printhead; and    -   moving said pad from a first position in which said contact        surface is sealingly engaged with said face to a second position        in which said contact surface is disengaged from said face,    -   wherein said movement causes said contact surface to be peeled        away from said face during disengagement.

In a fifth aspect, there is provided a method of removing ink floodedacross an ink ejection face of a printhead, said method comprising thesteps of:

-   -   providing an elastically deformable pad having a contact surface        for sealing engagement with an ink ejection face of said        printhead; and    -   moving said pad from a first position in which said contact        surface is sealingly engaged with said face to a second position        in which said contact surface is disengaged from said face,    -   wherein said movement causes said contact surface to be peeled        away from said face during disengagement.

In a sixth aspect, there is provided a method of sealing nozzles in anink ejection face of a printhead, said method comprising the steps of:

-   -   providing an elastically deformable pad having a contact surface        for sealing engagement with an ink ejection face of said        printhead; and    -   moving said pad from a second position in which said contact        surface is disengaged from said face to a first position in        which said contact surface is sealingly engaged with said face,

wherein said movement causes said contact surface to be progressivelycontacted with said face during sealing engagement.

In a seventh aspect, there is provided a method of maintaining aprinthead in an operable condition, said method comprising the steps of:

-   -   providing an elastically deformable pad having a contact surface        for sealing engagement with an ink ejection face of said        printhead; and    -   moving said pad between a first position in which said contact        surface is sealingly engaged with said face and a second        position in which said contact surface is disengaged from said        face,    -   wherein said movement is such that ink wets from said printhead        onto said contact surface during disengagement, but remain        substantially in or on said printhead during engagement.

In an eighth aspect, there is provided a printhead maintenance stationfor maintaining a printhead in an operable condition, said maintenancestation comprising:

-   -   an elastically deformable pad having a contact surface for        sealing engagement with an ink ejection face of said printhead,        said contact surface being sloped with respect to said face; and    -   an engagement mechanism for moving said pad between a first        position in which the contact surface is sealingly engaged with        said face, and a second position in which said contact surface        is disengaged from said face,    -   wherein said engagement mechanism moves said pad substantially        perpendicularly with respect to said face.

In a ninth aspect, there is provided a printhead maintenance station formaintaining a printhead in an operable condition, said maintenancestation comprising:

-   -   an elastically deformable cylinder having a contact surface for        sealing engagement with an ink ejection face of said printhead;        and    -   an engagement mechanism for moving said cylinder between a first        position in which said contact surface is sealingly engaged with        said face, and a second position in which said contact surface        is disengaged from said face,    -   wherein said engagement mechanism moves said cylinder        substantially perpendicularly with respect to said face.

In a tenth aspect, there is provided a printhead maintenance station formaintaining a printhead in an operable condition, said maintenancestation comprising:

-   -   an elastically deformable roller having a contact surface for        contacting an ink ejection face of said printhead; and    -   a mechanism for rolling said roller across said face.

In an eleventh aspect, there is provided a method of maintaining aprinthead in an operable condition, said method comprising the steps of:

-   -   providing an elastically deformable roller having a contact        surface for contacting an ink ejection face of said printhead;        and    -   rolling said roller across said face.

In a twelfth aspect, there is provided a printhead maintenance stationfor maintaining a printhead in an operable condition, said maintenancestation comprising:

-   -   an elastically deformable pad having a contact surface for        sealing engagement with an ink ejection face of said printhead;        and    -   an engagement mechanism for reciprocally moving said pad between        a first position in which said contact surface is sealingly        engaged with said face, and a second position in which said        contact surface is disengaged from said face,    -   wherein said engagement mechanism is configured to move said pad        rotatably with respect to said printhead such that, during        engagement, a first part of said surface is contacted with said        face prior to a second part of said surface, and during        disengagement said second part is disengaged from said face        prior said first part.

In a thirteenth aspect, there is provided a printhead assemblycomprising:

-   -   a printhead having an ink ejection face; and    -   a wicking element positioned for receiving ink from an edge        portion of said printhead and/or an edge portion of a pad being        disengaged from said face.

In a fourteenth aspect, there is provided a printhead maintenancestation for maintaining a printhead in an operable condition, saidmaintenance station comprising:

-   -   an elastically deformable pad having a contact surface for        sealing engagement with an ink ejection face of said printhead;        and    -   an engagement mechanism for moving said pad between a first        position in which said contact surface is sealingly engaged with        said face, a second position in which said contact surface is        disengaged from said face, and a third position in which said        contact surface is engaged with a pad cleaner.

In a fifteenth aspect, there is provided a method of maintaining aprinthead in an operable condition, said method comprising the steps of:

-   -   providing an elastically deformable pad having a contact surface        for sealing engagement with an ink ejection face of said        printhead; and    -   moving said pad between a first position in which said contact        surface is sealingly engaged with said face, a second position        in which said contact surface is disengaged from said face, and        a third position in which said contact surface is engaged with a        pad cleaner.

In a sixteenth aspect, there is provided a printhead assemblycomprising:

-   a printhead mounted on a support, said printhead having an ink    ejection face; and-   a film cooperating with said support to define a wicking channel,    wherein said wicking channel is positioned for receiving ink from an    edge portion of said printhead and/or an edge portion of a pad being    disengaged from said face.

In a seventeenth aspect, there is provided a method of removing ink froman ink ejection face of a printhead, said method comprising the stepsof:

-   -   (a) moving said ink towards an edge portion of said printhead;        and    -   (b) wicking said ink away from said edge portion.

For the avoidance of doubt, the term “progressively contacted” is usedto mean a type of engagement, which is opposite to “peeling away”. Inother words, different portions of the contact surface progressivelycome into contact with the ink ejection face at different times duringengagement. Likewise, different portions of the contact surface areprogressively peeled away from the ink ejection face at different timesduring disengagement. The specification and drawings below describe indetail this type of engagement and disengagement, and various ways ofachieving such engagement and disengagement.

The printhead maintenance station advantageously combines bothpreventative and remedial measures for maintaining an inkjet printheadin an operable condition. In terms of preventative measures, the contactsurface seals the ink ejection face, thereby minimizing evaporation ofwater from the nozzles and minimizing the effects of ink drying upinside the nozzles. Sealing engagement of the contact surface with theink ejection face also protects the printhead from particulates in theatmosphere, which can damage or block nozzles. Typically, the pad isheld in its first position when the printhead is left idle overrelatively long periods. However, the pad may be moved into sealingengagement at any time when the printhead is not printing.

In terms of remedial measures, the contact surface cleans ink from theink ejection face due to the unique interaction between the contactsurface and the printhead. From a detailed analysis of advancing andreceding contact angles, the present inventors have found that peelingdisengagement of the contact surface from the ink ejection face has theeffect of moving ink along the contact surface (or the ink ejectionface) towards an edge portion. Once deposited at an edge portion, theink may be readily removed. A detailed explanation of the principle ofadvancing and receding contact angles, and how these relate to thepresent invention is given below.

In addition to cleaning flooded ink from the ink ejection face, thepeeling disengagement action of the contact surface from the printheadalso has the effect of unblocking nozzles. Peeling disengagementgenerates a negative pressure above nozzles in the printhead and, hence,draws out viscous ink material or particulate contaminants blocking thenozzles. Accordingly, the peeling disengagement has the combined effectsof clearing blocked nozzles and removing ink to an edge portion of thecontact surface or printhead.

A further advantage of the printhead maintenance station is that it hasa simple design, which is compact, can be manufactured at low cost andconsumes very little power. The suction devices of the prior art requireexternal pumps, which add significantly to the cost and powerconsumption of prior art printers. Moreover, the requirement of anexternal vacuum pump adds significantly to the bulk of prior artprinters. By obviating the need for a vacuum pump to effectively unblockprinthead nozzles, the present invention allows inkjet printers to beinstalled into a wider range of devices and also opens up the potentialfor a commercially-viable disposable inkjet printer.

A further advantage of the printhead maintenance station is that nozzlescan be unblocked without wasting large quantities of ink. Whereas priorart suction devices are wasteful of ink, adding to the overall cost ofprinter operation, the present invention withdraws only a minimumquantity of ink from nozzles during remediation. Moreover, by depositingthe ink onto an edge portion of the pad (and/or the printhead), themeans for removing this ink is greatly simplified.

A further advantage of the printhead maintenance station is that thecleaning action exerts minimal shear stress across the ink ejectionface. Accordingly, sensitive nozzle structures are less likely to bedamaged during maintenance when compared to, for example, wiping orsqueegee cleaning of printheads.

Optionally, the pad is substantially coextensive with the printhead. Apad configured in this way ensures maintenance of the entire printhead,whilst simplifying the design of the maintenance station as far aspossible. As described below a portion of the pad may extend beyond oneend of the printhead, although this type of arrangement is stillunderstood to be within the definition of the term ‘substantiallycoextensive’.

Optionally, the contact surface is substantially uniform, so that inkcan flow freely across its surface. Optionally, the contact surfaceshould have a minimal number of pits or indentations, to avoid trappingink in micro-pockets and consequently reducing the efficacy of thecleaning action.

The pad is elastically deformable and, preferably, has minimal or nocreep. Elastic deformability provides sealing engagement of the pad withthe printhead. Moreover, it ensures the pad can be used repeatedlywithout loss of either sealing or cleaning performance. Suitablematerials for forming the pad include thermosetting or thermoplasticelastomers. For example, the pad may be comprised of silicone,polyurethane, Neoprene®, Santoprene® or Kraton®. Optionally, the pad iscomprised of a silicone rubber.

Optionally a peel zone between the contact surface and the ink ejectionface advances and retreats transversely across the ink ejection faceduring engagement and disengagement. In this embodiment, ink retreatswith the peel zone in a longitudinal line towards a longitudinal edgeportion of the contact surface or printhead as the pad is peeled away.This has the advantage that the ink travels a minimum distance acrossthe ink ejection face and maximizes the cleaning efficiency of themaintenance station.

Optionally, the engagement mechanism moves the pad substantiallyperpendicularly with respect to the ink ejection face. This arrangementhas the advantage of simplifying the motion of the pad and, moreover,the means for achieving this. For example, a simple solenoid ormotor/cam arrangement, consuming very little power, may be used toprovide reciprocal linear movement of the pad.

Optionally, the pad is received in a housing with the pad being slidablymovable relative to the housing. Typically, the pad extends through aslit in the housing in the first position and the pad is retracted intothe housing in the second position. Optionally, the pad is mounted on asupport arm, the arm having lugs at each end for engagement with theengagement mechanism. The lugs extend through complementary slots inside walls of the housing, thereby allowing sliding movement of thesupport arm and the pad.

With the pad being moved perpendicularly with respect to the inkejection face, the unique engagement action of the contact surface isusually determined by the profile of the contact surface itself.Optionally, the pad is configured so that the contact surface is slopedwith respect to the ink ejection face. Accordingly, during perpendicularengagement of the pad with the ink ejection face, a first end of thecontact surface is contacted before a second end of the contact surface.Sloping of the contact surface may be in the form of a linear gradient(i.e. the contact surface is flat). For example, the contact surface maybe angled at 5-30°, 8-20° or 10-15° with respect to the ink ejectionface. Alternatively, sloping of the contact surface may be in the formof a curved or rounded gradient. In either case, progressive contact ofthe surface with the ink ejection face is ensured during engagement.Likewise, a peeling motion is ensured during disengagement.

Optionally, the pad is wedge-shaped with an angled surface of the wedgebeing the contact surface presented to the ink ejection face. Awedge-shaped pad is advantageous, since its manufacture is relativelyfacile using conventional molding, machining or laser-cuttingtechniques.

Optionally, a peel zone between the contact surface and the ink ejectionface advances and retreats longitudinally along the printhead duringengagement and disengagement. In this embodiment, ink retreats with thepeel zone in a transverse line towards a transverse edge portion of thecontact surface or ink ejection face as the pad is peeled away. Anadvantage of this arrangement is that excess ink is concentrated into asmaller area by the cleaning action, making its removal more facile.

Optionally, the engagement mechanism is configured to move the padrotatably with respect to the ink ejection face. An advantage of thisarrangement is that the pad need not be specially shaped to provide therequisite engagement and disengagement action. A simple cuboid block ofsilicone rubber may be employed as the pad, with the rotational movementensuring that a first end of the contact surface is contacted with theink ejection face before a second end of the contact surface.

As mentioned above, engagement of the pad may be provided so as toengage the contact surface progressively transversely across theprinthead, or progressively longitudinally along the ink ejection face.Optionally, the pad is mounted on an arm, which is rotatably mountedabout a pivot. Optionally, the pivot axis is substantially parallel witha transverse axis of the printhead such that the contact surfacesengages progressively longitudinally along the ink ejection face.

The maintenance station is typically configured so that peelingdisengagement of the contact surface from the ink ejection face drawsink from the printhead towards an edge portion of the contact surface,the ink ejection face, or both. This cleaning action may be used toclear blocked nozzles and remove ink flooded on the surface of the inkejection face.

The speed of engagement and disengagement, together with the contacttime, may be varied in order to optimize the cleaning action. Optimalcleaning will also depend on other factors, such as the size ofprinthead, the elasticity of the pad, the shape of the pad, the motionof the engagement mechanism etc. The skilled person will readily be ableto optimize cleaning of the printhead for any given system by varyingone or more of these parameters.

The pad may be moved according to a predetermined algorithm, dependingon the expected severity of nozzle blockage. For example, differentmaintenance actions may be suitable for different printer conditions(e.g. first use, paper jam, recovery, user intervention etc.). Somesituations may require five reciprocal movements of the pad, whereasother situations may require only one engage/disengage sequence.Suitable algorithms may be programmed into a control system controllingoperation of the printhead maintenance station.

Optionally, the maintenance station further comprises an ink removalsystem for removing ink deposited on an edge portion of the contactsurface or ink ejection face. The ink removal system advantageouslyavoids build up of ink on the pad or on the printhead, and channels anysurplus ink away from the printhead.

The ink removal system may comprise any substrate or mechanism that caneffectively remove ink from the edge portion(s). For example, the padmay be moved and contacted with an absorbent material after it hasdisengaged from the printhead.

Optionally, the ink removal system comprises a wicking elementpositioned adjacent an edge of the printhead. Ink which has beendeposited towards the edge of the printhead and the pad is absorbed intothe wicking element, which may simply be an absorbent material, andremoved by wicking through the material. This arrangement has theadvantage of simplicity and obviates the need for additional movingparts or a vacuum system in the maintenance station.

Optionally, the wicking element is positioned away from wirebonds on theprinthead. The wirebonds are usually positioned along one longitudinaledge portion of the printhead, and the wicking element is optionallypositioned adjacent an opposite longitudinal edge portion. Optionally,the wicking element extends into a cavity defined by a print media guideand a support to which the guide is mounted. This advantageously avoidsink from flooding and becoming trapped inside this cavity.

Optionally, the ink removal system further comprises an ink collectorfor receiving ink, which has wicked through the wicking element. Bychanneling surplus ink into a dedicated collector, the ink may becontinuously taken away from the printhead region and cannotre-contaminate the printhead.

Optionally, the ink removal system comprises a film attached to theprinthead support, wherein the film defines a wicking channel. The filmis positioned such that the channel receives ink from an edge portion ofthe face and/or an edge portion of the pad being disengaged from theface. Optionally, the wicking channel is tapered to provide a capillaryaction. Optionally, a channel inlet is positioned adjacent proximal tothe printhead and a channel outlet is positioned distal from theprinthead, the channel being tapered towards the channel outlet. Thechannel inlet is typically defined by a proximal edge portion of thefilm, while the channel outlet is defined by a distal edge portion ofthe film.

Optionally, the film is anchored to the support along its distal edgeportion via a plurality of anchor points. Typically, the anchor pointsare spaced apart to allow ink to exit the channel outlet. Alternatively,the distal edge portion of the film is attached to the print media guideand the distal edge portion be sandwiched between the print media guideand the support. Such an arrangement has manufacturing advantages in anautomated assembly process when compared to bonding the film directly tothe support.

Optionally, the film is substantially coextensive with the printhead andpositioned adjacent a longitudinal edge thereof. Optionally, a pluralityof vents are defined in the film. The vents are positioned for receivingink from an outer surface of the film. Typically, the vents arepositioned towards the channel inlet. The vents may take the form ofelongate slots extending parallel with a longitudinal edge of the film.

Typically, the film is resiliently displaceable and is usually comprisedof a polymer. Examples of suitable polymer films include polyester,polyethylene, polypropylene, polyacrylate films etc.

Optionally, an edge portion of the pad extends beyond an edge of theprinthead, such that at least part of the pad abuts the film when thepad is engaged with the face. Accordingly, the channel may beresiliently defined as the pad disengages from the face.

As an alternative, or in addition to the wicking element or wickingchannel adjacent the printhead, the pad is optionally moveable to athird position in which it is engaged with a pad cleaner. Typically, thepad is rotated into engagement with the pad cleaner after disengagementfrom the ink ejection face of the printhead. The pad cleaner may be, forexample, a rubber squeegee or an absorbent pad and typically forms partof the printhead maintenance station.

The invention has been developed primarily for use with a pagewidthinkjet printhead. Optionally, the printhead comprises a plurality ofnozzles, with each nozzle having a diameter of less than 20 microns orless than 15 microns.

However, the invention is equally applicable to any type of printheadwhere sealing and/or remedial measures are required to maintain theprinthead in an operable condition. For example, the invention may beused in connection with standard scanning inkjet printheads in order tosimplify conventional maintenance stations.

In a first aspect the present invention provides a printhead maintenancestation for maintaining a printhead in an operable condition, saidmaintenance station comprising:

-   -   an elastically deformable pad having a contact surface for        sealing engagement with an ink ejection face of said printhead;        and    -   an engagement mechanism for moving said pad between a first        position in which said contact surface is sealingly engaged with        said face, and a second position in which said contact surface        is disengaged from said face,    -   wherein said maintenance station is configured such that said        contact surface is progressively contacted with said face during        sealing engagement and peeled away from said face during        disengagement.

Optionally, said pad is substantially coextensive with said printhead.

Optionally, said contact surface is substantially uniform.

Optionally, said pad is comprised of silicone, polyurethane, Neoprene®,Santoprene® or Kraton®.

Optionally, a peel zone between said contact surface and said inkejection face advances and retreats transversely across said face duringengagement and disengagement.

Optionally, said engagement mechanism moves said pad substantiallyperpendicularly with respect to said ink ejection face.

Optionally, said contact surface is sloped with respect to said inkejection face such that, during engagement, a first part of said surfaceis contacted with said face prior to a second part of said surface.

Optionally, said pad is wedge-shaped.

Optionally, a peel zone between said contact surface and said inkejection face advances and retreats longitudinally along said faceduring engagement and disengagement.

Optionally, said engagement mechanism is configured to move said padrotatably with respect to said printhead such that, during engagement, afirst part of said surface is contacted with said ink ejection faceprior to a second part of said surface.

Optionally, said pad is fixed to an arm and said arm is rotatablymounted about a pivot, wherein said pivot is substantially parallel witha transverse axis of said printhead.

Optionally, said pad is biased towards said first position.

Optionally, said peeling disengagement draws ink from said printheadtowards an edge portion of said contact surface and/or said face.

In a further aspect the maintenance station further comprising an inkremoval system for removing ink from an edge portion of said contactsurface and/or said face.

Optionally, said ink removal system comprises a wicking element orwicking channel positioned adjacent an edge of said printhead.

Optionally, said wicking element or wicking channel is positioned toreceive ink from said edge portion of said contact surface when saidcontact surface is being disengaged from said face.

Optionally, said ink removal system further comprises an ink collectorfor receiving ink wicked through said wicking element or wickingchannel.

Optionally, said printhead is an inkjet printhead.

Optionally, said printhead is a pagewidth printhead.

In a second aspect the present invention provides a printhead assemblyfor maintaining a printhead in an operable condition, said assemblycomprising:

-   -   a printhead having an ink ejection face; and    -   a printhead maintenance station comprising:        -   an elastically deformable pad having a contact surface for            sealing engagement with said face; and        -   an engagement mechanism for moving said pad between a first            position in which said contact surface is sealingly engaged            with said face and a second position in which said contact            surface is disengaged from said face,            wherein said printhead assembly is configured such that said            contact surface is progressively contacted with said face            during sealing engagement and peeled away from said face            during disengagement.

Optionally, said pad is substantially coextensive with said printhead.

Optionally, said contact surface is substantially uniform.

Optionally, said pad is comprised of silicone, polyurethane, Neoprene®,Santoprene® or Kraton®.

Optionally, a peel zone between said contact surface and said inkejection face advances and retreats transversely across said face duringengagement and disengagement.

Optionally, said engagement mechanism moves said pad substantiallyperpendicularly with respect to said ink ejection face.

Optionally, said contact surface is sloped with respect to said inkejection face such that, during engagement, a first part of said surfaceis contacted with said face prior to a second part of said surface.

Optionally, said pad is wedge-shaped.

Optionally, a peel zone between said contact surface and said inkejection face advances and retreats longitudinally along said faceduring engagement and disengagement.

Optionally, said engagement mechanism is configured to move said padrotatably with respect to said printhead such that, during engagement, afirst part of said surface is contacted with said ink ejection faceprior to a second part of said surface.

Optionally, said pad is fixed to an arm and said arm is rotatablymounted about a pivot, wherein said pivot is substantially parallel witha transverse axis of said printhead.

Optionally, said pad is biased towards said first position.

Optionally, said peeling disengagement draws ink from said printheadtowards an edge portion of said contact surface and/or said face.

In a further aspect there is provided a printhead assembly, furthercomprising an ink removal system for removing ink from an edge portionof said contact surface and/or said face.

Optionally, said ink removal system comprises a wicking element orwicking channel positioned adjacent an edge of said printhead.

Optionally, said wicking element or wicking channel is positioned toreceive ink from said edge portion of said contact surface when saidcontact surface is being disengaged from said face.

Optionally, said ink removal system further comprises an ink collectorfor receiving ink wicked through said wicking element or wickingchannel.

Optionally, said printhead is an inkjet printhead.

Optionally, said printhead is a pagewidth printhead.

Optionally, said printhead comprises a plurality of ink ejectionnozzles, each nozzle having a diameter of less than 20 microns.

In a third aspect the present invention provides a method of maintaininga printhead in an operable condition, said method comprising the stepsof:

-   -   providing an elastically deformable pad having a contact surface        for sealing engagement with an ink ejection face of said        printhead; and    -   moving said pad between a first position in which said contact        surface is sealingly engaged with said face and a second        position in which said contact surface is disengaged from said        face,    -   wherein said movement causes said contact surface to be        progressively contacted with said face during sealing engagement        and peeled away from said face during disengagement.

Optionally, said pad is substantially coextensive with said printhead.

Optionally, said contact surface is substantially uniform.

Optionally, said pad is comprised of silicone, polyurethane, Neoprene®,Santoprene® or Kraton®.

Optionally, a peel zone between said contact surface and said inkejection face advances and retreats transversely across said face duringengagement and disengagement.

Optionally, said pad is moved substantially perpendicularly with respectto said ink ejection face.

Optionally, said contact surface is sloped with respect to said inkejection face such that, during engagement, a first part of said surfaceis contacted with said face prior to a second part of said surface.

Optionally, said pad is wedge-shaped.

Optionally, a peel zone between said contact surface and said inkejection face advances and retreats longitudinally along said faceduring engagement and disengagement.

Optionally, said pad is moved rotatably with respect to said printheadsuch that, during engagement, a first part of said surface is contactedwith said ink ejection face prior to a second part of said surface.

Optionally, said pad is fixed to an arm and said arm is rotatably movedabout a pivot, wherein said pivot is substantially parallel with atransverse axis of said printhead.

Optionally, said pad is biased towards said first position.

Optionally, said peeling disengagement draws ink from said printheadtowards an edge portion of said contact surface and/or said face.

Optionally, ink deposited on an edge portion of said contact surfaceand/or said face is removed.

Optionally, said ink is removed using a wicking element or wickingchannel positioned adjacent an edge of said printhead.

Optionally, said wicking element or wicking channel receives ink fromsaid edge portion of said contact surface when said contact surface isbeing disengaged from said face.

Optionally, said ink is wicked through said wicking element or wickingchannel and received in an ink collector.

Optionally, said printhead is an inkjet printhead.

Optionally, said printhead is a pagewidth printhead.

In a fourth aspect the present invention provides a method of unblockingnozzles in a printhead, said method comprising the steps of:

-   -   providing an elastically deformable pad having a contact surface        for sealing engagement with an ink ejection face of said        printhead; and    -   moving said pad from a first position in which said contact        surface is sealingly engaged with said face to a second position        in which said contact surface is disengaged from said face,    -   wherein said movement causes said contact surface to be peeled        away from said face during disengagement.

Optionally, said pad is substantially coextensive with said printhead.

Optionally, said contact surface is substantially uniform.

Optionally, said pad is comprised of silicone, polyurethane, Neoprene®,Santoprene® or Kraton®.

Optionally, a peel zone between said contact surface and said inkejection face retreats transversely across said face duringdisengagement.

Optionally, said pad is moved substantially perpendicularly with respectto said ink ejection face.

Optionally, said contact surface is sloped with respect to said inkejection face such that, during disengagement, a first part of saidsurface is separated from said face prior to a second part of saidsurface.

Optionally, said pad is wedge-shaped.

Optionally, a peel zone between said contact surface and said inkejection face retreats longitudinally along said face duringdisengagement.

Optionally, said pad is moved rotatably with respect to said printheadsuch that, during disengagement, a first part of said surface isseparated from said ink ejection face prior to a second part of saidsurface.

Optionally, said pad is fixed to an arm and said arm is rotatably movedabout a pivot, wherein said pivot is substantially parallel with atransverse axis of said printhead.

Optionally, said pad is biased towards said first position.

Optionally, said peeling disengagement draws ink from said printheadtowards an edge portion of said contact surface and/or said face.

Optionally, ink deposited on an edge portion of said contact surfaceand/or said face is removed.

Optionally, said ink is removed using a wicking element or wickingchannel positioned adjacent an edge of said printhead.

Optionally, said wicking element or wicking channel receives ink fromsaid edge portion of said contact surface when said contact surface isbeing disengaged from said face.

Optionally, said ink is wicked through said wicking element or wickingchannel and received in an ink collector.

Optionally, said nozzles are blocked with viscous ink.

Optionally, said printhead is an inkjet printhead.

Optionally, said printhead is a pagewidth printhead.

In a fifth aspect the present invention provides a method of removingink flooded across an ink ejection face of a printhead, said methodcomprising the steps of:

-   -   providing an elastically deformable pad having a contact surface        for sealing engagement with an ink ejection face of said        printhead; and    -   moving said pad from a first position in which said contact        surface is sealingly engaged with said face to a second position        in which said contact surface is disengaged from said face,    -   wherein said movement causes said contact surface to be peeled        away from said face during disengagement.

Optionally, said pad is substantially coextensive with said printhead.

Optionally, said contact surface is substantially uniform.

Optionally, said pad is comprised of silicone, polyurethane, Neoprene®,Santoprene® or Kraton®.

Optionally, a peel zone between said contact surface and said inkejection face retreats transversely across said face duringdisengagement.

Optionally, said pad is moved substantially perpendicularly with respectto said ink ejection face.

Optionally, said contact surface is sloped with respect to said inkejection face such that, during disengagement, a first part of saidsurface is separated from said face prior to a second part of saidsurface.

Optionally, said pad is wedge-shaped.

Optionally, a peel zone between said contact surface and said inkejection face retreats longitudinally along said face duringdisengagement.

Optionally, said pad is moved rotatably with respect to said printheadsuch that, during disengagement, a first part of said surface isseparated from said ink ejection face prior to a second part of saidsurface.

Optionally, said pad is fixed to an arm and said arm is rotatably movedabout a pivot, wherein said pivot is substantially parallel with atransverse axis of said printhead.

Optionally, said pad is biased towards said first position.

Optionally, said peeling disengagement draws ink from said printheadtowards an edge portion of said contact surface and/or said face.

Optionally, ink deposited on an edge portion of said contact surfaceand/or said face is removed.

Optionally, said ink is removed using a wicking element or wickingchannel positioned adjacent an edge of said printhead.

Optionally, said wicking element or wicking channel receives ink fromsaid edge portion of said contact surface when said contact surface isbeing disengaged from said face.

Optionally, said ink is wicked through said wicking element or wickingchannel and received in an ink collector.

Optionally, said printhead is an inkjet printhead.

Optionally, said printhead is a pagewidth printhead.

In a sixth aspect the present invention provides a method of sealingnozzles on an ink ejection face of a printhead, said method comprisingthe steps of:

-   -   providing an elastically deformable pad having a contact surface        for sealing engagement with said ink ejection face; and    -   moving said pad from a second position in which said contact        surface is disengaged from said face to a first position in        which said contact surface is sealingly engaged with said face,    -   wherein said movement causes said contact surface to be        progressively contacted with said face during sealing        engagement.

Optionally, said pad is substantially coextensive with said printhead.

Optionally, said contact surface is substantially uniform.

Optionally, said pad is comprised of silicone, polyurethane, Neoprene®,Santoprene® or Kraton®.

Optionally, a peel zone between said contact surface and said inkejection face advances transversely across said face during engagement.

Optionally, said pad is moved substantially perpendicularly with respectto said ink ejection face.

Optionally, said contact surface is sloped with respect to said inkejection face such that, during engagement, a first part of said surfaceis contacted with said face prior to a second part of said surface.

Optionally, said pad is wedge-shaped.

Optionally, a peel zone between said contact surface and said inkejection face advances longitudinally along said face during engagement.

Optionally, said pad is moved rotatably with respect to said printheadsuch that, during engagement, a first part of said surface is contactedwith said ink ejection face prior to a second part of said surface.

Optionally, said pad is fixed to an arm and said arm is rotatably movedabout a pivot, wherein said pivot is substantially parallel with atransverse axis of said printhead.

Optionally, said pad is biased towards said first position.

Optionally, ink from said printhead is not drawn onto said contactsurface during said engagement.

Optionally, said printhead is an inkjet printhead.

Optionally, said printhead is a pagewidth printhead.

In a seventh aspect the present invention provides a method ofmaintaining a printhead in an operable condition, said method comprisingthe steps of:

-   -   providing an elastically deformable pad having a contact surface        for sealing engagement with an ink ejection face of said        printhead; and    -   moving said pad between a first position in which said contact        surface is sealingly engaged with said face and a second        position in which said contact surface is disengaged from said        face,    -   wherein said movement is such that ink wets from said printhead        onto said contact surface during disengagement, but remains        substantially in or on said printhead during engagement.

Optionally, an advancing contact angle of said ink on said contactsurface during engagement is greater than a receding contact angle ofsaid ink on said contact surface during disengagement.

Optionally, said pad is substantially coextensive with said printhead.

Optionally, said contact surface is substantially uniform.

Optionally, said pad is comprised of silicone, polyurethane, Neoprene®,Santoprene® or Kraton®.

Optionally, a peel zone between said contact surface and said inkejection face advances and retreats transversely across said face duringengagement and disengagement.

Optionally, said pad is moved substantially perpendicularly with respectto said ink ejection face.

Optionally, said contact surface is sloped with respect to said inkejection face such that, during engagement, a first part of said surfaceis contacted with said face prior to a second part of said surface.

Optionally, said pad is wedge-shaped.

Optionally, a peel zone between said contact surface and said inkejection face advances and retreats longitudinally along said faceduring engagement and disengagement.

Optionally, said pad is moved rotatably with respect to said printheadsuch that, during engagement, a first part of said surface is contactedwith said ink ejection face prior to a second part of said surface.

Optionally, said pad is fixed to an arm and said arm is rotatably movedabout a pivot, wherein said pivot is substantially parallel with atransverse axis of said printhead.

Optionally, said pad is biased towards said first position.

Optionally, said disengagement draws ink towards an edge portion of saidcontact surface.

Optionally, ink deposited on an edge portion of said contact surface isremoved.

Optionally, said ink is removed using a wicking element or wickingchannel positioned adjacent an edge of said printhead.

Optionally, said wicking element or wicking channel receives ink fromsaid edge portion of said contact surface when said contact surface isbeing disengaged from said face.

Optionally, said ink is wicked through said wicking element or wickingchannel and received in an ink collector.

Optionally, said printhead is an inkjet printhead.

Optionally, said printhead is a pagewidth printhead.

In an eighth aspect the present invention provides a printheadmaintenance station for maintaining a printhead in an operablecondition, said maintenance station comprising:

-   -   an elastically deformable pad having a contact surface for        sealing engagement with an ink ejection face of said printhead,        said contact surface being sloped with respect to said face; and    -   an engagement mechanism for moving said pad between a first        position in which the contact surface is sealingly engaged with        said face, and a second position in which said contact surface        is disengaged from said face,    -   wherein said engagement mechanism moves said pad substantially        perpendicularly with respect to said face.

Optionally, said pad is substantially coextensive with said printhead.

Optionally, said contact surface is substantially uniform.

Optionally, said pad is comprised of silicone, polyurethane, Neoprene®,Santoprene® or Kraton®.

Optionally, said contact surface is flat.

Optionally, said pad is wedge-shaped.

Optionally, said contact surface is curved.

Optionally, a peel zone between said contact surface and said inkejection face advances and retreats transversely across said face duringengagement and disengagement.

Optionally, said pad is biased towards said first position.

Optionally, said pad is received in a housing and said pad is slidablymovable relative to said housing.

Optionally, said pad extends through a slit in said housing in saidfirst position and said pad is retracted into said housing in saidsecond position.

Optionally, said pad is mounted on a support arm, said arm having a lugat each end for engagement with said engagement mechanism, wherein saidlugs extend through complementary slots in side walls of said housing,thereby allowing sliding movement of said support arm.

Optionally, said peeling disengagement draws ink from said printheadtowards a longitudinal edge portion of said contact surface and/or saidface.

In a further aspect there is provided a maintenance station, furthercomprising an ink removal system for removing ink from an edge portionof said contact surface and/or said face.

Optionally, said ink removal system comprises a wicking element orwicking channel positioned adjacent an edge of said printhead.

Optionally, said wicking element or wicking channel is positioned toreceive ink from said edge portion of said contact surface when saidcontact surface is being disengaged from said face.

Optionally, said ink removal system further comprises an ink collectorfor receiving ink wicked through said wicking element or wickingchannel.

Optionally, said printhead is an inkjet printhead.

Optionally, said printhead is a pagewidth printhead.

In a ninth aspect the present invention provides a printhead maintenancestation for maintaining a printhead in an operable condition, saidmaintenance station comprising:

-   -   an elastically deformable cylinder having a contact surface for        sealing engagement with an ink ejection face of said printhead;        and    -   an engagement mechanism for moving said cylinder between a first        position in which said contact surface is sealingly engaged with        said face, and a second position in which said contact surface        is disengaged from said face,    -   wherein said engagement mechanism moves said cylinder        substantially perpendicularly with respect to said face.

Optionally, said cylinder is substantially coextensive with saidprinthead.

Optionally, said contact surface is substantially uniform.

Optionally, said cylinder is comprised of silicone, polyurethane,Neoprene®, Santoprene® or Kraton®.

Optionally, said cylinder is offset from said printhead.

Optionally, a peel zone between said contact surface and said inkejection face advances and retreats transversely across said face duringengagement and disengagement.

Optionally, said cylinder is biased towards said first position.

Optionally, said peeling disengagement draws ink from said printheadtowards a predetermined region on said cylinder and/or an edge portionof said face.

In a further aspect there is provided a maintenance station, furthercomprising an ink removal system for removing ink from a predeterminedregion of said contact surface and/or said face.

Optionally, said ink removal system comprises a wicking element orwicking channel positioned adjacent an edge of said printhead.

Optionally, said wicking element or wicking channel is positioned toreceive ink from said predetermined region of said contact surface whensaid contact surface is being disengaged from said face.

Optionally, said ink removal system further comprises an ink collectorfor receiving ink wicked through said wicking element or wickingchannel.

Optionally, said printhead is an inkjet printhead.

Optionally, said printhead is a pagewidth printhead.

In a tenth aspect the present invention provides a printhead maintenancestation for maintaining a printhead in an operable condition, saidmaintenance station comprising:

-   -   an elastically deformable roller having a contact surface for        contacting an ink ejection face of said printhead; and    -   a mechanism for rolling said roller across said face.

Optionally, said roller is substantially coextensive with saidprinthead.

Optionally, said contact surface is substantially uniform.

Optionally, said roller is comprised of silicone, polyurethane,Neoprene®, Santoprene® or Kraton®.

Optionally, said roller rolls transversely across said printhead.

Optionally, a leading peel zone between said roller and said face is dryrelative to a tailing peel zone between said roller and said face.

Optionally, said rolling action draws ink from said printhead towards apredetermined region on said roller and/or an edge portion of said face.

In a further aspect there is provided a maintenance station, furthercomprising an ink removal system for removing ink from said rollerand/or said face.

Optionally, said ink removal system comprises a wicking element orwicking channel positioned adjacent an edge of said printhead.

Optionally, said wicking element or wicking channel is positioned toreceive ink from said roller after it has roller across said face.

Optionally, said ink removal system further comprises an ink collectorfor receiving ink wicked through said wicking element or wickingchannel.

Optionally, said printhead is an inkjet printhead.

Optionally, said printhead is a pagewidth printhead.

In an eleventh aspect the present invention provides a method ofmaintaining a printhead in an operable condition, said method comprisingthe steps of:

-   -   providing an elastically deformable roller having a contact        surface for contacting an ink ejection face of said printhead;        and    -   rolling said roller across said face.

Optionally, said roller is substantially coextensive with saidprinthead.

Optionally, said contact surface is substantially uniform.

Optionally, said roller is comprised of silicone, polyurethane,Neoprene®, Santoprene® or Kraton®.

Optionally, said roller rolls transversely across said printhead.

Optionally, a contact angle hysteresis between a leading peel zone ofsaid roller and a tailing peel zone of said roller is caused by saidrolling action.

Optionally, a leading peel zone of said roller is dry relative to atailing peel zone of said roller.

Optionally, said rolling action draws ink from said printhead towards apredetermined region on said roller and/or an edge portion of said face.

In a further aspect there is provided a method, further comprising anink removal system for removing ink from said roller and/or said face.

Optionally, said ink removal system comprises a wicking element orwicking channel positioned for receiving ink from said roller and/orsaid face.

Optionally, said ink removal system further comprises an ink collectorfor receiving ink wicked through said wicking element or wickingchannel.

Optionally, said roller is rolled reciprocally across said face.

Optionally, said printhead is an inkjet printhead.

Optionally, said printhead is a pagewidth printhead.

In a twelfth aspect the present invention provides a printheadmaintenance station for maintaining a printhead in an operablecondition, said maintenance station comprising:

-   -   an elastically deformable pad having a contact surface for        sealing engagement with an ink ejection face of said printhead;        and    -   an engagement mechanism for reciprocally moving said pad between        a first position in which said contact surface is sealingly        engaged with said face, and a second position in which said        contact surface is disengaged from said face,    -   wherein said engagement mechanism is configured to move said pad        rotatably with respect to said printhead such that, during        engagement, a first part of said surface is contacted with said        face prior to a second part of said surface, and during        disengagement said second part is disengaged from said face        prior to said first part.

Optionally, said pad is substantially coextensive with said printhead.

Optionally, said contact surface is substantially uniform.

Optionally, said pad is comprised of silicone, polyurethane, Neoprene®,Santoprene® or Kraton®.

Optionally, said pad is substantially cuboid.

Optionally, a peel zone between said contact surface and said inkejection face advances and retreats longitudinally along said faceduring engagement and disengagement.

Optionally, said pad is fixed to an arm and said arm is rotatablymounted about a pivot, wherein said pivot is substantially parallel witha transverse axis of said printhead.

Optionally, said pad is biased towards said first position.

Optionally, said contact surface is progressively contacted with saidface during sealing engagement and peeled away from said face duringdisengagement.

Optionally, said peeling disengagement draws ink from said printheadtowards an edge portion of said contact surface and/or said face.

In a further aspect there is provided a maintenance station, furthercomprising an ink removal system for removing ink from an edge portionof said contact surface and/or said face.

Optionally, said ink removal system comprises a wicking element orwicking channel positioned adjacent an edge of said printhead.

Optionally, said wicking element or wicking channel is positioned toreceive ink from said edge portion of said contact surface when saidcontact surface is being disengaged from said face.

Optionally, said ink removal system further comprises an ink collectorfor receiving ink wicked through said wicking element or wickingchannel.

Optionally, said printhead is an inkjet printhead.

Optionally, said printhead is a pagewidth printhead.

In a thirteenth aspect the present invention provides a printheadmaintenance station for maintaining a printhead in an operablecondition, said maintenance station comprising:

-   -   an elastically deformable pad having a contact surface for        sealing engagement with an ink ejection face of said printhead;        and    -   an engagement mechanism for reciprocally moving said pad between        a first position in which said contact surface is sealingly        engaged with said face, and a second position in which said        contact surface is disengaged from said face,    -   wherein said engagement mechanism is configured to move said pad        rotatably with respect to said printhead such that, during        engagement, a first part of said surface is contacted with said        face prior to a second part of said surface, and during        disengagement said second part is disengaged from said face        prior to said first part.

Optionally, said pad is substantially coextensive with said printhead.

Optionally, said contact surface is substantially uniform.

Optionally, said pad is comprised of silicone, polyurethane, Neoprene®,Santoprene® or Kraton®.

Optionally, said pad is substantially cuboid.

Optionally, a peel zone between said contact surface and said inkejection face advances and retreats longitudinally along said faceduring engagement and disengagement.

Optionally, said pad is fixed to an arm and said arm is rotatablymounted about a pivot, wherein said pivot is substantially parallel witha transverse axis of said printhead.

Optionally, said pad is biased towards said first position.

Optionally, said contact surface is progressively contacted with saidface during sealing engagement and peeled away from said face duringdisengagement.

Optionally, said peeling disengagement draws ink from said printheadtowards an edge portion of said contact surface and/or said face.

In a further aspect there is provided a maintenance station, furthercomprising an ink removal system for removing ink from an edge portionof said contact surface and/or said face.

Optionally, said ink removal system comprises a wicking element orwicking channel positioned adjacent an edge of said printhead.

Optionally, said wicking element or wicking channel is positioned toreceive ink from said edge portion of said contact surface when saidcontact surface is being disengaged from said face.

Optionally, said ink removal system further comprises an ink collectorfor receiving ink wicked through said wicking element or wickingchannel.

Optionally, said printhead is an inkjet printhead.

Optionally, said printhead is a pagewidth printhead.

In a fourteenth aspect the present invention provides a printheadmaintenance station for maintaining a printhead in an operablecondition, said maintenance station comprising:

-   -   an elastically deformable pad having a contact surface for        sealing engagement with an ink ejection face of said printhead;        and    -   an engagement mechanism for moving said pad between a first        position in which said contact surface is sealingly engaged with        said face, a second position in which said contact surface is        disengaged from said face, and a third position in which said        contact surface is engaged with a pad cleaner.

Optionally, said maintenance station is configured such that saidcontact surface is progressively contacted with said face during sealingengagement and peeled away from said face during disengagement.

Optionally, said pad is substantially coextensive with said printhead.

Optionally, said contact surface is substantially uniform.

Optionally, said pad is comprised of silicone, polyurethane, Neoprene®,Santoprene® or Kraton®.

Optionally, a peel zone between said contact surface and said inkejection face advances and retreats transversely across said face duringengagement and disengagement.

Optionally, said engagement mechanism moves said pad linearly betweensaid first and second positions, said linear movement beingsubstantially perpendicular to said ink ejection face.

Optionally, said contact surface is sloped with respect to said inkejection face such that, during engagement, a first part of said surfaceis contacted with said face prior to a second part of said surface.

Optionally, said pad is biased towards said first position relative tosaid second position.

Optionally, said peeling disengagement draws ink from said printheadtowards an edge portion of said contact surface and/or said face.

Optionally, said engagement mechanism rotates said pad between saidsecond and third positions.

Optionally, said engagement mechanism comprises a cam surface forabutment with a cradle on which said pad is mounted, said abutmentcausing rotation of said cradle from said second position to said thirdposition.

Optionally, said pad is biased towards said second position relative tosaid third position.

Optionally, said pad cleaner is positioned remotely from said printhead.

Optionally, said maintenance station further comprises said pad cleaner.

Optionally, said pad cleaner is positioned for removing ink deposited onsaid contact surface from said printhead.

Optionally, said pad cleaner comprises a squeegee or an absorbent pad.

Optionally, said printhead is an inkjet printhead.

Optionally, said printhead is a pagewidth printhead.

In a fifteenth aspect the present invention provides a method ofmaintaining a printhead in an operable condition, said method comprisingthe steps of:

-   -   providing an elastically deformable pad having a contact surface        for sealing engagement with an ink ejection face of said        printhead; and    -   moving said pad between a first position in which said contact        surface is sealingly engaged with said face, a second position        in which said contact surface is disengaged from said face, and        a third position in which said contact surface is engaged with a        pad cleaner.

Optionally, said movement causes said contact surface to beprogressively contacted with said face during sealing engagement andpeeled away from said face during disengagement.

Optionally, said pad is substantially coextensive with said printhead.

Optionally, said contact surface is substantially uniform.

Optionally, said pad is comprised of silicone, polyurethane, Neoprene®,Santoprene® or Kraton®.

Optionally, a peel zone between said contact surface and said inkejection face advances and retreats transversely across said face duringengagement and disengagement.

Optionally, said pad is moved linearly between said first and secondpositions, said linear movement being substantially perpendicular withrespect to said ink ejection face.

Optionally, said contact surface is sloped with respect to said inkejection face such that, during engagement, a first part of said surfaceis contacted with said face prior to a second part of said surface.

Optionally, a peel zone between said contact surface and said inkejection face advances and retreats longitudinally along said faceduring engagement and disengagement.

Optionally, said pad is biased towards said first position relative tosaid second position.

Optionally, said peeling disengagement draws ink from said printheadtowards an edge portion of said contact surface and/or said face.

Optionally, said pad is rotated between said second and third positions.

Optionally, said rotation is caused by abutment of a cradle on whichsaid pad is mounted with a cam surface.

Optionally, said pad is biased towards said second position relative tosaid third position.

Optionally, said pad cleaner is positioned remotely from said printhead.

Optionally, said pad cleaner is positioned for removing ink deposited onsaid contact surface from said printhead.

Optionally, said pad cleaner comprises a squeegee or an absorbent pad.

Optionally, a sequential printhead maintenance cycle is performed, saidmaintenance cycle comprising the steps of:

-   -   (a) linearly moving said pad from said second position to said        first position;    -   (b) linearly moving said pad from said first position to said        second position;    -   (c) rotating said pad from said second position to said third        position;    -   (d) rotating said pad from said third position back to said        second position;    -   (e) optionally repeating steps (a)-(d) until said printhead is        fully operable.

Optionally, said printhead is an inkjet printhead.

Optionally, said printhead is a pagewidth printhead.

In a sixteenth aspect the present invention provides a printheadassembly comprising:

-   -   a printhead mounted on a support, said printhead having an ink        ejection face; and    -   a film cooperating with said support to define a wicking        channel,        wherein said wicking channel is positioned for receiving ink        from an edge portion of said printhead and/or an edge portion of        a pad being disengaged from said face.

Optionally, said film defines a tapered wicking channel.

Optionally, a channel inlet is proximal to said printhead and a channeloutlet is distal from said printhead.

Optionally, said channel is tapered towards said channel outlet.

Optionally, a proximal edge portion of said film at least partiallydefines said channel inlet and a distal edge portion of said film atleast partially defines said channel outlet.

Optionally, said film is anchored to said support along said distal edgeportion.

Optionally, a plurality of anchor points are spaced apart along saiddistal edge portion.

Optionally, said distal edge portion of said film is attached to a printmedia guide.

Optionally, said distal edge portion of said film is sandwiched betweensaid print media guide and said support.

Optionally, said channel outlet is in fluid communication with an inkcollector.

Optionally, said film is substantially coextensive with said printheadand positioned adjacent a longitudinal edge of said printhead.

Optionally, a plurality of vents are defined in said film, said ventsbeing positioned for receiving ink from an outer surface of said film.

Optionally, said vents are positioned towards said channel inlet.

Optionally, each vent is an elongate slot extending substantiallyparallel with a longitudinal edge of said film.

Optionally, said film is resiliently displaceable.

Optionally, said printhead is wirebonded along a longitudinal edgeportion and said film is positioned adjacent an opposite longitudinaledge portion of said printhead.

In a further aspect there is provided a printhead assembly, furthercomprising a print media guide mounted on said support, said filmchanneling ink into a cavity defined between said guide and saidsupport.

In a further aspect there is provided a printhead assembly, furthercomprising a printhead maintenance station, said maintenance stationcomprising:

-   -   a pad having a sloped contact surface for engagement with said        ink ejection face; and    -   an engagement mechanism for moving said pad between a first        position in which said contact surface is sealingly engaged with        said face, and a second position in which said contact surface        is disengaged from said face, said engagement mechanism moving        said pad substantially perpendicularly with respect to said        face.

Optionally, an edge portion of said pad extends beyond an edge of saidprinthead, such that at least part of said pad abuts said film when saidpad is engaged with said face.

Optionally, said channel is resiliently defined as said pad disengagesfrom said face.

In a seventeenth aspect the present invention provides a method ofremoving ink from an ink ejection face of a printhead, said methodcomprising the steps of:

-   -   (a) moving said ink towards an edge portion of said printhead;        and    -   (b) wicking said ink away from said edge portion.

Optionally, said edge portion is a longitudinal edge portion.

Optionally, said printhead is wirebonded along a longitudinal edgeportion and ink is moved towards an opposite longitudinal edge portion.

Optionally, said ink is moved using peeling action.

Optionally, said peeling action is provided by a pad being peeled awayfrom said face.

Optionally, said pad has a sloped contact surface relative to said face.

Optionally, said ink is wicked into an ink collector.

Optionally, said ink is wicked through a wicking channel.

Optionally, said wicking channel is tapered.

Optionally, said wicking channel is defined at least partially by afilm.

Optionally, a channel inlet is proximal to said edge portion and achannel outlet is distal from said edge portion, said channel beingtapered towards said channel outlet.

Optionally, said film is substantially coextensive with said printheadand positioned adjacent a longitudinal edge portion of said printhead.

Optionally, a plurality of vents are defined in said film, said ventsbeing positioned for receiving ink from an outer surface of said film.

Optionally, said film is a polymer film.

Optionally, said film is resiliently displaceable.

Optionally, said ink is wicked through a wicking element.

Optionally, said wicking element is comprised of an absorbent material.

Optionally, said wicking element is positioned adjacent said edgeportion.

Optionally, said printhead is a pagewidth inkjet printhead.

BRIEF DESCRIPTION OF THE DRAWINGS

Specific forms of the present invention will be now be described indetail, with reference to the following drawings, in which:—

FIG. 1 shows an equilibrium contact angle for a wetting droplet ofliquid on a surface;

FIG. 2 shows an equilibrium contact angle for a non-wetting droplet ofliquid on a surface;

FIG. 3 shows advancing and receding contact angles for a droplet ofliquid moving along a surface;

FIG. 4A is a side view of a contact surface before engagement with anink ejection face of a printhead;

FIG. 4B is a side view of a contact surface partially engaged with theink ejection face during engagement;

FIG. 4C shows in detail a peel zone between the contact surface and aprinthead nozzle during engagement;

FIG. 4D shows in detail the peel zone in FIG. 4C after it has advancedpast the nozzle;

FIG. 5A is a side view of the contact surface sealingly engaged with theink ejection face;

FIG. 5B is a side view of a contact surface partially engaged with theink ejection face during disengagement;

FIG. 5C shows in detail a peel zone between the contact surface and aprinthead nozzle during disengagement;

FIG. 5D shows in detail the peel zone in FIG. 4C as it retreats from thenozzle;

FIG. 5E shows in detail the peel zone in FIG. 4D after it has retreatedfrom the nozzle;

FIG. 6 is a side view of the contact surface immediately after it hasdisengaged from the ink ejection face;

FIG. 7 is a longitudinal side section view through a printheadmaintenance station according to the invention;

FIG. 8 is a side view of the printhead maintenance station shown in FIG.7;

FIG. 9 is a transverse side section view of the printhead maintenancestation shown in FIG. 7;

FIG. 10 is an end view of the printhead maintenance station shown inFIG. 7;

FIG. 11 is an exploded perspective view of the printhead maintenancestation shown in FIG. 7;

FIG. 12 is a perspective view of a pad moving perpendicularly withrespect to an ink ejection face of a printhead;

FIG. 13 is a perspective view of a pad;

FIG. 14 is a perspective view of a pad;

FIG. 15A-C are schematic side views of a cylindrical pad at variousstages of engagement with an ink ejection face of a printhead;

FIG. 16A-C are schematic side views of a contact surface being broughtinto engagement with an ink ejection face of a printhead by rotationalmovement;

FIG. 17 is a schematic side view of a roller being rolled across an inkejection face of a printhead;

FIG. 18 is a schematic side view of a printhead assembly comprising awicking element;

FIG. 19 is a schematic side view of a printhead assembly comprising awicking channel;

FIG. 20 is a plan view of the printhead and film shown in FIG. 19;

FIG. 21 is a schematic side view of the printhead assembly shown in FIG.19 with the pad fully engaged;

FIG. 22 is a schematic side view of the printhead assembly shown in FIG.21 at the point of disengagement; and

FIGS. 23A-D are transverse side section views of a printhead maintenancestation, having a rotating pad cleaning action, in various stages of aprinthead maintenance cycle.

DETAILED DESCRIPTION OF SPECIFIC EMBODIMENTS

Contact Angle Hysteresis

In general terms, and as mentioned above, the present invention relieson an understanding of contact angles—specifically, a hysteresis betweenadvancing and receding contact angles.

The shape of a droplet of liquid on a solid surface is determined by itscontact angle(s). Depending on factors such as the surface tension inthe liquid and the interactive forces between the solid and the liquid,the shape of the droplet will change. FIG. 1 shows a droplet of liquid 1having a contact angle of 20° on a solid surface 2. With acute contactangles, the liquid is said to be “mostly wetting” the surface 2. FIG. 2shows a droplet of another liquid 3 having a contact angle of 110° onthe solid surface 2. With obtuse contact angles, the liquid is said tobe “mostly non-wetting”.

The contact angles shown in FIGS. 1 and 2 are static or equilibriumcontact angles. Since the droplet is symmetrical, the contact anglemeasured on either side of the droplet would be the same. However, thesituation changes if the droplet of liquid is moving. FIG. 3 shows adroplet of liquid 4 moving down the surface 2, which is now sloped. Asshown in FIG. 3, the shape of the droplet changes when it is moving. Theresult is that the contact angle on its leading (advancing) edge isgreater than the contact on its tailing (receding) edge. In other words,the droplet is more wetting when receding and less wetting whenadvancing. The contact angle designated as θ_(A) in FIG. 3 is called theAdvancing Contact Angle, and the contact angle designated as θ_(R) inFIG. 3 is called the Receding Contact Angle.

For a typical droplet of ink moving across a silicone surface, theadvancing contact angle is about 90°, whereas the receding contact angleis about 15°. Without wishing to be bound by theory, it is understood bythe present inventors that this contact angle hysteresis is responsiblefor the cleaning action provided by the present invention.

In FIGS. 4A and 4B, a flexible pad 6 having a contact surface 7 isprogressively brought into contact with a printhead 5 having an inkejection face 8. FIG. 4C shows an exploded view of a peel zone 9 in FIG.4B, when the contact surface 7 is partially in contact with the inkejection face 8. FIG. 4C shows in detail the behaviour of ink 11 as thesurface 7 is contacted with a nozzle opening 10 on the printhead. Ink 11in the nozzle opening 10 makes contact with the contact surface 7 as itadvances across the printhead 5. However, since the advancing contactangle θ_(A) of the ink 11 on the contact surface 7 is relativelynon-wetting (about 90°), the ink has little or no tendency to wet ontothe contact surface 7. Hence, as shown in FIG. 4D, the ink 11 remains onthe ink ejection face 8 or in the nozzle 10, and the peel zone 9advancing across the ink ejection face is relatively dry.

In FIGS. 5A and 5B, the reverse process is shown as the flexible pad 6is peeled away from the ink ejection face 8. Initially, as shown in FIG.5A, the contact surface 7 is sealingly engaged with the ink ejectionface 8. In FIG. 5B, the contact surface 7 is peeled away from the inkejection face 8, and the peel zone 9 retreats across the face. FIG. 5Cshows a magnified view of the peel zone 9 as the contact surface 7 ispeeled away from the nozzle opening 10 on the printhead 5. Ink 11 in thenozzle opening 10 makes contact with the contact surface 7 as it recedesacross the ink ejection face 8. However, since the receding contactangle θ_(R) of the ink 11 on the surface 7 is relatively wetting (about15°), the ink in the nozzle opening 10 now tends to wet onto the contactsurface 7. Hence, as shown in FIGS. 5D and 5E, the peel zone 9retreating across the ink ejection face 8 is wet, carrying with it adroplet of ink 12 drawn from the nozzle opening 10 or from the inkejection face 8. This has the effect of clearing blocked nozzles in theprinthead 5 and cleaning ink flooded on the ink ejection face 8.

FIG. 6 shows the flexible pad 6 as the last part of the contact surface7 is peeled away from the ink ejection face 8. The contact surface 7 hascollected a bead of ink 12 at the final point of contact with theprinthead 5.

As will be readily appreciated from the foregoing discussion, thepresent invention may be implemented in many different forms, providedthat the contact surface 7 is contacted with the ink ejection face 8 soas to produce a contact angle hysteresis. Various forms of the inventionare described in detail below.

Printhead Maintenance Station Having Linear Pad Movement

Referring to FIGS. 7 to 11, a printhead maintenance station 20 comprisesan elastically deformable pad 6 having a contact surface 7. The pad 6 ismounted on a support 23, having a recess 24 for receiving the pad. Thesupport 23 is mounted on a support arm 25 having lugs 26 protruding fromeach end. The pad 6, support 23 and support arm 25 are bonded togetherto form a pad sub-assembly.

A housing 30 comprises a body 31 and a cap 32, which is snap-fitted tothe body with a plurality of snap-locks 33. The two-part construction ofthe housing 30 enables it to be assembled by receiving the padsub-assembly in the body 31 and then snap-fitting the cap 32 onto thebody. The lugs 26 protruding from each end of the support arm 25 arereceived in complementary slots 34 in the housing 30. Accordingly, thesupport arm 25 is slidably movable within the slots 34, allowing the pad6 to move slidably relative to the housing 30.

The extent of movement of the pad 6 is defined by the slots 34. In afirst position shown in FIG. 7, the lugs 26 abut an upper end 37 of eachslot 34 and the pad 6 protrudes, at least partially, from the housing30. In a second position (not shown), the lugs 26 abut a lower end 38 ofeach slot 34, defined by the cap 32, and the pad 6 is withdrawn insidethe housing 30.

As shown in FIG. 11, a pair of springs 35 are fixed to the cap 32 andurge against a lower surface 36 of the support arm 25. The springs 35bias the pad 6 towards the first position shown in FIG. 7.

The pad 6 is movable between the first and second positions by means ofan engagement mechanism 40, which is shown in FIG. 7. The engagementmechanism 40 comprises a motor 41, which rotates a pair of cams 42,engaged with respective lugs 26 at each end of the support arm 25.Rotation of the motor 41 and the cam 42 causes linear sliding movementof the support arm 25 and, hence, the pad 6. Accordingly, the pad 6 maybe moved reciprocally between the first and second positions uponactuation of the motor 41.

In the first position, the contact surface 7 is sealingly engaged withthe ink ejection face 8, as shown in detail in FIG. 5A. In the secondposition, the contact surface 7, is disengaged from the ink ejection 8,as shown in FIG. 4A. In between these two positions, the contact surface7 may be either progressively contacting or peeling away from the inkejection face 8.

FIG. 12 shows the perpendicular movement of the pad 6 with respect tothe ink ejection face 8. As discussed above, this movement together withthe profile of the contact surface 7 allows the printhead 5 to bemaintained in an operable condition by sealing, cleaning and/ornozzle-clearing actions.

Alternative Pad Configurations

In the embodiment shown in FIGS. 4-12, the pad 6 is moved linearly andsubstantially perpendicularly with respect to the ink ejection face 8.The pad 6 is shown in FIGS. 4A and 12 having a sloped contact surface 7in the form of a straight-line gradient. This sloped contact surface 7allows it to be progressively contacted with and peeled away from theink ejection face 8 during engagement and disengagement respectively.

However, the contact surface may adopt other profiles and still achievea similar effect when moved perpendicularly with respect to the inkejection face 8. FIGS. 13 and 14 show two alternative configurations forthe pad 6 in which the contact surface 7 has a curved profile incross-section.

As shown in FIGS. 15A-C, the pad may alternatively be in the form of acylinder 50, extending along the length of the printhead 5. The cylindermay be moved perpendicularly with respect to the ink ejection face 8 sothat it is in either an engaged or a disengaged position. FIGS. 15A-Cshow progressive contacting of a curved contact surface 51 of thecylinder 50 so that it is brought into sealing engagement with the inkejection face 8. The reverse process of peeling the contact surface 51away from the ink ejection face 8 cleans the face or clears blockednozzles on the printhead 5, as described above. The cylinder 50 isoffset from the printhead 5 so that any ink drawn from the printheadmoves towards an edge portion of the printhead during disengagement, andnot towards the centre.

Any of these alternative pads may readily be incorporated into theprinthead maintenance station 20 described above by simple replacementof the pad 6 in FIG. 11.

Printhead Maintenance Station Having Rotational Pad Movement

In all the embodiments described thus far, the contact surface 7 hasbeen sloped. With a sloped contact surface 7, linear motion of the pad 6produces the peeling action required by the invention. However, as analternative, the pad 6 may be moved rotationally in order to achieve theprogressive engagement and peeling disengagement from the ink ejectionface 8.

In FIGS. 16A-C, there is shown a pad 60 mounted on an arm 61, which isattached to a pivot 62 at one end. The arm 61 is rotated by means of amotor 63 connected to the pivot 62. The pad 60 has a flat contactsurface 64, which is progressively contacted with the ink ejection face8 by virtue of the rotational movement of the arm 61. In the reverseprocess (not shown), the pad 60 is peeled away from the ink ejectionface 8 also by virtue of the rotational movement of the arm 61. The pad60 may be cuboid-shaped in this embodiment, since the requisiteengagement and disengagement action is generated by the rotationalmovement of the pad.

As shown in FIGS. 16A-C, the pad is progressively contacted (and, by thereverse process, peeled away) along the longitudinal direction of theprinthead 5. The printhead 5 has longitudinal rows of nozzles (notshown), with each row ejecting the same colored ink. Byengaging/disengaging the pad 60 along the longitudinal direction of theprinthead 5, color mixing between adjacent rows of nozzles is minimizedas ink is drawn longitudinally along the ink ejection face 8 towards atransverse edge portion of the face and the pad 60.

Printhead Maintenance Station Having Rolling Pad Movement

As shown in FIG. 17, the pad may alternatively be in the form a roller70, which extends along the length of the printhead 5. In thisembodiment, the roller 70 is rolled transversely across the ink ejectionface 8 so that a leading peel zone 71 between the roller and the face isdry, and a tailing peel zone 72 between the roller and the face is wet.As explained above, this difference is due to an advancing contact angleat the leading peel zone 71 being greater than a receding contact angleat the tailing peel zone 72. Accordingly, the rolling action has theeffect of cleaning the ink ejection face 8 due to this contact anglehysteresis. Unlike the embodiments described above, in this embodiment,advancing and receding contact angles are experienced simultaneously bydifferent surfaces of the roller 70.

The roller 70 is rolled across the ink ejection face using a rollingmechanism 73. The rolling mechanism 73 comprises a pivot arm 74 to whichthe roller 70 is rotatably mounted at one end. The pivot arm 74 ispivoted about a pivot 75, and an opposite end of the arm is moved bymeans of a solenoid 76. Actuation of the solenoid 76 causes the pivotarm 74 to pivot and the roller 70 is consequently rolled transverselyacross the ink ejection face 8.

Absorbent Wicking Element Adjacent Printhead For Removing Ink

In all the embodiments described above, the cleaning action of the pad 6generally deposits ink towards a predetermined region of the contactsurface 7, which is typically an edge portion. Some ink may also bedeposited on an edge portion of the ink ejection face 8—either atransverse edge portion or a longitudinal edge portion depending on theconfiguration or movement of the pad 6.

FIG. 18 shows an embodiment where deposited ink 81 is removed by meansof a wicking element 80 positioned adjacent a longitudinal edge 83 ofthe printhead 5. The wicking element 80 wicks ink away from alongitudinal edge portion 82 of the contact surface 7 and/or the inkejection face 8. From FIG. 18, it can be seen that the edge portion 82of the contact surface 7 extends past an edge of the printhead 5,allowing the edge portion 82 to project over the wicking element 80adjacent the printhead. Hence, ink deposited at the edge portion 82, asthe contact surface 7 peels away from the ink ejection face 8, istransferred onto the wicking element 80. The edge portion 82 is thefinal point of contact between the contact surface 7 and the inkejection face 8 during disengagement.

The pad 6 and wicking element 80 are configured to move ink away from anopposite longitudinal edge portion 84 of the printhead 5, whichcomprises wirebond encapsulant 85. The encapsulant 85 protects wirebonds(not shown) connecting the printhead 5 to other printer components (notshown).

The crowded environment around the printhead 5 means that the wirebondededge portion 84 is relatively inaccessible. It is an advantage of thepresent invention that the pad 6 can access and move ink away from thisseverely crowded edge portion 84.

The wicking element 80 is formed from an absorbent material, such aspaper or foam, and is positioned in a cavity defined between a printmedia guide 86 and a support 87 on which the printhead 5 and print mediaguide are mounted. The print media guide 86 has a guide surface 88 forguiding print media past the printhead 5 when the pad 6 is fullydisengaged from the ink ejection face 8.

An ink collector 89 receives ink that has wicked through the wickingelement 80, ensuring that ink is always removed away from the printhead5.

Wicking Channel Adjacent Printhead For Removing Ink

With repeated maintenance operations, the wicking element 80 may becomedamaged after repeated engagement of the pad 6. In particular, if thewicking element 80 is comprised of paper and saturated with absorbedink, it may disintegrate when contacted with the contact surface 7.Whilst more robust wicking materials may be used, a problem remains inthat wicking rates through the material are relatively slow.

In an alternative embodiment, and referring to FIGS. 19 and 20, a film120 is positioned adjacent the longitudinal edge 83 of the printhead 5.The film 120 has a proximal longitudinal edge 121 and a distallongitudinal edge 122 relative to the printhead 5. The film 120cooperates with the support 87 to define a wicking channel 124. Thedistal longitudinal edge 122 may be attached to the support 87 via aplurality of anchor points 123. The anchor points 123 may be, forexample, spots of adhesive spaced apart along the distal edge 122.Alternatively, the distal edge 122 of the film 120 may be fixed to thepaper guide 86, and the film held in position by being sandwichedbetween the support 87 and the paper guide.

The film 120 is typically a biaxially oriented polyester film (e.g.Mylar® film). Due to the stiffness and resilience of the film 120,attachment to the support 87 along the distal longitudinal edge 122provides a tapered wicking channel 124. A channel inlet 125 is providedadjacent the longitudinal edge 83 of the printhead 5, while a channeloutlet 126 is provided distal from the printhead 5.

Due to the tapering of the wicking channel 124, ink received in thechannel inlet 125 wicks rapidly along the channel towards the channeloutlet 126 by capillary action, thereby removing ink away from theprinthead 5. Furthermore, since the anchor points 123 are spaced apartalong the distal longitudinal edge 122 of the film 120, ink can flow inbetween the anchor points and exit the channel outlet 126.

A secondary wicking element 127 is positioned between the media guide 86and the support 87 at the channel outlet 126. The secondary wickingelement 87 is positioned to receive ink from the channel outlet 126 andwicks ink into the ink collector 89. The secondary wicking element 127is comprised of an absorbent material, such as paper or foam. Since thesecondary wicking element 127 is not physically contacted by the pad 6during printhead maintenance operations, it has a comparatively longlifetime compared to the wicking element 80 described above.

Referring to FIG. 20, a plurality of vents in the form of slots 128 aredefined in the film 120 towards its proximal longitudinal edge 121. Theslots 128 are positioned for receiving any ink, which does not enter thechannel inlet 125. For example, any ink deposited on the outer surfaceof the film 120 (i.e. the upper surface of the film 120 as shown in FIG.19) during printhead maintenance, is wicked into the channel 124 via theslots 128. The elongate slots 128, extending longitudinally along thefilm 120, have been shown to be particularly effective in wicking inkinto the channel 124. However, any shape of vent may equally be used forthe same purpose.

Referring to FIGS. 21 and 22, there is shown a printhead maintenanceoperation including cooperation of the contact surface 7 and the film120. In FIG. 21, the pad 6 is fully engaged with the printhead 5. Theedge portion 82 of the contact surface 7 abuts against the film 120,urging the film against the support 87. The edge portion 82 contacts thefilm 120 so that the vents 128 are sealed by the contact surface 7. Inthis way, any ink on the edge portion 82 of the contact surface 7 issqueezed into the vents 128 and into the channel 124, during engagementof the pad 6.

In FIG. 22, the contact surface 7 has peeled away from the ink ejectionface 8 so that ink 81 has moved towards the edge portions 82 and 83. Dueto the resilience of the film 120 (and due, in part, to stiction forcesbetween the film 120 and the contact surface 7), the tapered channel 124is defined as the pad 6 is disengaged from the printhead 5. Accordingly,as shown in FIG. 22, the ink 81 removed from the ink ejection face 8 ispositioned in the channel inlet 125 at the point of disengagement.

Once the ink 81 has entered the channel inlet 125, it is rapidly wickedtowards the channel outlet 126 due to the tapering of the channel 124and the capillary action provided thereby. The ink 81 is subsequentlyreceived by the secondary wicking element 127 and deposited into the inkcollector 89. Hence, efficient and rapid removal of ink 81 away from thecontact surface 7 and/or printhead 5 is achieved.

Engagement Mechanism with Rotating Pad-Cleaning Action

As described above, a wicking element 80 or film 120 may be positionedadjacent an edge portion 83 of the printhead 5, so that ink 81 isremoved from the contact surface 7, ready for the next cleaningsequence.

In an alternative embodiment, the maintenance station may be configuredso that ink is removed from contact surface 7 after the pad 6 isdisengaged from the printhead face 8. In this embodiment, the engagementmechanism is configured to move the contact surface 7 into engagementwith a remote cleaning means after it has disengaged from the printheadface 8. For example, rotation of the pad 6 after disengagement may beused to bring the contact surface 7 into cleaning engagement with asqueegee or blotter. Rotation may, for example, rock the pad through anarc and past a squeegee. Alternatively, rotation may be fully through180° using a similar mechanism to those used in rotating ‘self-inking’stamps. Self-inking stamps have been known for decades in the stampingart (see, for example, U.S. Pat. Nos. 239,779; 405,704; 669,137;827,347; 1,121,940; 2,079,080; 2,312,727; 2,919,645; 3,364,856;3,402,663; 3,631,799; 3,952,653; 3,988,987; 4,432,281 and 4,852,489, thecontents of which are incorporated herein by cross-reference), and theskilled person will readily appreciate how such stamping mechanisms maybe used to rotate the pad 6 through 180° onto a blotter after it hasdisengaged from the printhead face 8.

FIGS. 23A-D show a cleaning sequence for a printhead assembly 90, inwhich the pad 6 is cleaned after disengagement from the printhead face 8by rocking past a rubber squeegee.

Referring to FIG. 23A, there is shown in cross-section a printheadcartridge 91 comprising the printhead 5 mounted on support 92.Encapsulated wirebonds 85 extend from one longitudinal edge of theprinthead 5, while the paper guide 88 is fixed to the support 87 on anopposite side of the printhead. Still referring to FIG. 23A, there isalso shown a printhead maintenance station 100 comprising the pad 6having the contact surface 7 for engagement with the ink ejection face 8of the printhead 5. The pad is mounted on a cradle 101, which can bemoved vertically towards the printhead 5 and which can also be rotatedor rocked towards a rubber squeegee 102 fixed to a wall 103 of themaintenance station 100.

Referring now to FIG. 23B, the sloped contact surface 7 is brought intosealing engagement with the printhead face 8 by moving the pad 6vertically upwards using an engagement mechanism (not shown) similar tothat shown in FIGS. 7-11.

In FIG. 23C, the printhead face 8 is cleaned by moving the pad 6vertically downwards, thereby peeling the contact surface 7 away fromthe printhead face. A droplet of ink 104 is deposited along an edgeportion of the contact surface 7 after it has disengaged from theprinthead.

In FIG. 23D, the engagement mechanism (not shown) moves the cradle 101further downwards so that its bottom surface 105 abuts with a camsurface 106 on the maintenance station. Abutment of the cradle 101 withthe cam surface 106 causes the cradle to rock towards the rubbersqueegee 102. The squeegee 102 removes the ink droplet 104 from thecontact surface 7 as it rocks past the squeegee. This cleans the padready for re-use in the next maintenance cycle. Any suitable cleaningmeans, such as a foam pad, may of course be used to clean the pad 6instead of the rubber squeegee 102 shown in FIGS. 19A-D.

Finally, the cradle 101 is moved back into the position shown in FIG.23A, which completes the maintenance cycle. A biasing mechanism (notshown) rocks the cradle 101 back into its vertical position shown inFIG. 23A as the cradle is moved upwards and away from the cam surface106.

It will, of course, be appreciated that the present invention has beendescribed purely by way of example and that modifications of detail maybe made within the scope of the invention, which is defined by theaccompanying claims.

1. A printhead assembly for maintaining a printhead in an operablecondition, said assembly comprising: a printhead having an ink ejectionface; and a printhead maintenance station comprising: an elasticallydeformable pad having a contact surface for sealing engagement with saidface; an engagement mechanism for moving said pad between a firstposition in which said contact surface is sealingly engaged with saidface and a second position in which said contact surface is disengagedfrom said face; and a wicking element and channel positioned adjacent anedge of said printhead for removing ink from an edge portion of saidcontact surface and/or said face, the wicking element comprising aresilient film configured to be resiliently moved through contact withthe pad so as to taper the wicking channel, wherein said printheadassembly is configured such that said contact surface is progressivelycontacted with said face during sealing engagement and peeled away fromsaid face during disengagement.
 2. The printhead assembly of claim 1,wherein said pad is substantially coextensive with said printhead. 3.The printhead assembly of claim 1, wherein said contact surface issubstantially uniform.
 4. The printhead assembly of claim 1, whereinsaid pad is comprised of silicone, polyurethane.
 5. The printheadassembly of claim 1, wherein a peel zone between said contact surfaceand said ink ejection face advances and retreats transversely acrosssaid face during engagement and disengagement.
 6. The printhead assemblyof claim 1, wherein said engagement mechanism moves said padsubstantially perpendicularly with respect to said ink ejection face. 7.The printhead assembly of claim 1, wherein said contact surface issloped with respect to said ink ejection face such that, duringengagement, a first part of said surface is contacted with said faceprior to a second part of said surface.
 8. The printhead assembly ofclaim 7, wherein said pad is wedge-shaped.
 9. The printhead assembly ofclaim 1, wherein a peel zone between said contact surface and said inkejection face advances and retreats longitudinally along said faceduring engagement and disengagement.
 10. The printhead assembly of claim1, wherein said pad is biased towards said first position.
 11. Theprinthead assembly of claim 1, wherein said peeling disengagement drawsink from said printhead towards an edge portion of said contact surfaceand/or said face.
 12. The printhead assembly of claim 1, wherein saidwicking element and channel is positioned to receive ink from said edgeportion of said contact surface when said contact surface is beingdisengaged from said face.
 13. The printhead assembly of claim 1,wherein said printhead maintenance station further comprises an inkcollector for receiving ink wicked through said wicking element orwicking channel.
 14. The printhead assembly of claim 1, wherein saidprinthead is an inkjet printhead.
 15. The printhead assembly of claim 1,wherein said printhead is a pagewidth printhead.
 16. The printheadassembly of claim 1, wherein said printhead comprises a plurality of inkejection nozzles, each nozzle having a diameter of less than 20 microns.